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Control Barrier Functions for Sampled-Data Systems with Input Delays

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arxiv 2005.06418 v1 pith:D3UP6MDJ submitted 2020-05-13 eess.SY cs.SYmath.OC

Control Barrier Functions for Sampled-Data Systems with Input Delays

classification eess.SY cs.SYmath.OC
keywords controlsystemsinputbarriercontrollersdelaysformulationfunctions
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This paper considers the general problem of transitioning theoretically safe controllers to hardware. Concretely, we explore the application of control barrier functions (CBFs) to sampled-data systems: systems that evolve continuously but whose control actions are computed in discrete time-steps. While this model formulation is less commonly used than its continuous counterpart, it more accurately models the reality of most control systems in practice, making the safety guarantees more impactful. In this context, we prove robust set invariance with respect to zero-order hold controllers as well as state uncertainty, without the need to explicitly compute any control invariant sets. It is then shown that this formulation can be exploited to address input delays in this system, with the result being CBF constraints that are affine in the input. The results are demonstrated in a high-fidelity simulation of an unstable Segway robotic system in real-time.

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